Lid For Containers for Cooking Foods

ABSTRACT

An improved lid ( 1 ) for covering containers for cooking foods ( 2 ), includes elements for cooling vapour ( 3 ) placed outside and above the lid ( 1 ), and support elements ( 4 ) for the vapour cooling elements ( 3 ). The lid has an extension in the thickness direction so as to provide a plurality of channels ( 11 ) through the lid. The channels ( 11 ) define a passage path for the vapour coming from the container ( 2 ) for cooking the foods outward, causing an acceleration of the vapour, the accelerated vapour contacting through the channels ( 11 ) a lower surface ( 31 ) of the vapour cooling elements, condensing and flowing again, at a liquid phase, inside the cooking container ( 2 ) through the plurality of channels ( 11 ).

The present invention concerns an improved lid for cooking foods.

More specifically, the invention concerns a lid of the above kind, studied and realised particularly to be able to recover the nutritional properties of foods containing saturated vapour deriving from the cooking.

As it is well known, at present foods cooked at home provide a cooking of the foods using gas, said cooking not always being uniform. Particularly, if foods would be cooked at an excessive temperature, most organoleptic properties would degrade and lost.

In order to solve this problem, lids exist since many years providing holes for venting saturated vapour. This operation principle privilege cooking of foods at low temperature, with a uniform distribution of the heat inside the pot, by natural convective motion. The above allows recovering the vapour phase transformed into liquid phase, thus avoiding that the food passes 100° C., and preventing the degradation of vitaminic, proteinic and lipidic components, thus reducing the energetic need (wood, town gas, methane, electricity).

However, in this kind of systems, vapour from cooking employing said lids exits under a certain pressure from the cooking container, thus dispersing in the environment nutritive properties of foods. In other words, said lids determine a high perishing of properties of foods.

In view of the above, it is well evident the needing of having a lid allowing obtaining a cooking of the foods without loosing quality of the same foods and allowing a cooking at not too high temperatures, thus creating also a thermal insulation with respect to the surrounding environment.

In this situation it is included the solution suggested according to the present invention.

Thus, the object of the present invention is that of suggesting a lid allowing at the same time containing the heat dispersion, promoting the ordered and accelerated outlet of vapours from a cooking container through outlet paths having a suitable shape and housing, and conveying and controlling production of these vapours in such a way they fall down condensed inside the cooking pot.

Another object of the invention is that of obtaining a safe of energy, along with a recovery of the food organoleptic properties.

It is therefore specific object of the present invention an improved lid for covering containers for cooking foods, comprising means for cooling vapour placed outside and above said lid, and support means for said vapour cooling means, characterised in that is has an extension in the thickness direction so as to be able realising a plurality of channels through the lid, said channels realising a passage path for the vapour coming from the container for cooking said foods outward, causing an acceleration of the vapour, said accelerated vapour contacting through said channels a lower surface of said vapour cooling means, condensing and flowing again, at a liquid phase, inside said cooking container through said plurality of channels.

Always according to the invention, said lid can be comprised of two layers, coupled in correspondence of the edges, said layers realising an interspace suitable to thermally insulating the inner part of the cooking container.

Furthermore, according to the invention, said two layers can be coupled by said channels.

Still according to the invention, said lid can be solid.

Always according to the invention, said channels can have a cylindrical profile or it can be preferably profiled.

Furthermore, according to the invention, said lid can be convex.

Still according to the invention, said cooling means can comprise a plate that, preferably, can be concave.

Furthermore, according to the invention, said plate can provide an undulated and/or lamellar lower surface and some holes, preferably provided on the edge, to promote condensation of vapour.

Always according to the invention, said support means of said cooling means can be adjustable.

Preferably, according to the invention, said lid can comprise a knob, on the top of said support means for said cooling means.

Furthermore, according to the invention, said cooling means can be housed in the lower part of said knob.

The present invention will be now described, for illustrative but not limitative purposes, according to its preferred embodiment, with particular reference to the figure of the enclosed drawing, showing a section view of a pot or other cooking container, on which it is placed the improved lid for cooking foods according to the present invention.

In order to better understand the present invention, the operation modes of the preferred embodiment of the lid will be described in the following, similar modes being valid for other embodiments.

Making reference to the figure, it can be seen the application of the lid, generically indicated by reference number 1, on a pot or cooking container 2, within which the food A to be cooked is contained.

Channels 11 are present on the upper surface 12 of the lid 1, communicating the inside of the pot or cooking container 2 with the surrounding environment.

Observing now in greater detail the figure, it is possible observing that lid 1 in this embodiment provides respectively an upper surface 12 and a lower surface 13, comprised of two metallic layers, suitably spaced and coupled along the edges, curved in such a way to present the convex surface inside the pot or cooking container 2. Holes 14, 15 are present on both the layers 12, 13, creating channels 11. Said holes 14, 15 have a suitable diameter, and their positioning on the surfaces 12 or 13 describes in the present embodiment a circumference with the centre coinciding with the centre of the lid 1.

A lid-cover 3 is provided above the lid. Saturated vapours produced by the food A during the cooking pass through said channels 11, being subjected to an acceleration outward the pot or cooking container 2. Said saturated vapours exiting from the channels 11 meet the lid-cover 3, contacting which are subjected to a condensation, in view of the fact that said lid-cover 3 has a lower temperature.

Consequently, recover of nutritional substances is obtained, said substances passing through the same channels 11, going back inside the pot or cooking container 2.

Lid 1, in the embodiment shown, looks like a chamber, within which vacuum is created, in order to thermally insulating in the best way the cooking zone with respect to the outside environment. This allows having an easy handling of the lid 1, being it hollow and light.

Outer surface of the channels 11 is comprised of cylindrical elements 16. Said cylindrical elements 16 can also have a shape different from the cylindrical shape, such as a profile that, starting from the outer layer 12 toward the inner layer 13, is initially converging and then diverging.

These channels 11 have the function of orderly capturing and accelerating the outlet speed of cooking vapours by Venturi effect. This effect can be obtained both for cylindrical channels 11 and with channels having the above converging—diverging profile.

In case of cylindrically shaped channels 11, a neck is obtained between the inner volume of the pot or cooking container 2, within which the saturated vapour is contained at high pressure, and the outside environment at atmospheric pressure.

If the channels 11 are realised with a converging—diverging profile, a further improvement of the above effect is obtained.

Saturated vapours exiting under pressure from said pot or cooking container 2 meet the lower surface 31 of the lid-cover 3, having a suitable concave shape. Said lid-cover 3 has the function of condensing the cooking vapours arriving from the underlying channels. Condensate created by said saturated vapours accumulates on the lower surface 31 and then slides on the upper surface 12 of said lid 1. Convexity of said upper surface 12 of the lid 1 provided in the preferred embodiment, promotes the collection of the condensate and outflow of liquid substances inside the pot or cooking container 2 by said channels 11.

Lower surface 31 of the lid-cover 3 has an undulated profile so as to increase the surface met by the saturated vapour, thus increasing the condensation effect of the lid-cover 3.

Furthermore, lid-cover 3 provides, in the embodiment shown, also holes 32, preferably realised in correspondence of the edge, to separate the condensate droplets and making easier the return of the bigger production of liquid phase thus promoting the maintenance of the nutritional aspects of the food.

In order to regulating the condensate quality and to adapt the same to specific cooking needing, a screw 4 has been introduced as coupling between the lid 1 and the lid-cover 3, in order to be able to vary the distance between the two elements. This solution can be used for foods requiring a different cooking time, with a higher or lower recover of cooking liquids, or to adjust the condensate quality in function of the higher or lower production of vapour.

A knob 5 is present above the screw 4, said knob being comprised of not-conductive material, to move the lid 1 also during the cooking of the foods.

On the basis of the above specification, it can be observed that the basic feature of the present invention is the realisation of a lid for a food cooking container, said lid having a thickness through which profiled or not, channels are realised, for acceleration by Venturi effect of saturated vapour arriving under pressure from the pot or cooking container, said vapour being then condensed by cooling means and introduced again within said pot or cooking container by the same channels, in order to recover the nutritional substances.

An advantage of the present invention is the thermal insulation effect of the lid obtained by its two-layer structure.

Another advantage of the present invention is that of being able to adjust the height by cooling means to regulate the cooking of the food.

The present invention has been described for illustrative but not limitative purposes, according to its preferred embodiments, but it is to be understood that modifications and/or changes can be introduced by those skilled in the art without departing from the relevant scope as defined in the enclosed claims. 

1. Improved lid for covering containers for cooking foods, comprising means for cooling vapour placed outside and above said lid, and support means for said vapour cooling means, characterised in that is has an extension in the thickness direction so as to be able realising a plurality of channels through the lid, said channels realising a passage path for the vapour coming from the container for cooking said foods outward, causing an acceleration of the vapour, said accelerated vapour contacting through said channels a lower surface of said vapour cooling means, condensing and flowing again, at a liquid phase, inside said cooking container through said plurality of channels.
 2. Lid according to claim 1, characterised in that said lid is comprised of two layers, coupled in correspondence of the edges, said layers realising an interspace suitable to thermally insulating the inner part of the cooking container.
 3. Lid according to claim 2, characterised in that said two layers are coupled by said channels.
 4. Lid according to claim 1, characterised in that said it is solid.
 5. Lid according to claim 1, characterised in that said channels have a cylindrical profile.
 6. Lid according to claim 1, characterised in that said channels are profiled.
 7. Lid according to claim 1, characterised in that said lid is convex.
 8. Lid according to claim 1, characterised in that said cooling means comprises a plate.
 9. Lid according to claim 8, characterised in that said plate is concave.
 10. Lid according to claim 8, characterised in that said plate provides an undulated lower surface.
 11. Lid according to claim 8, characterised in that said plate provides a lower lamellar surface.
 12. Lid according to one of the claim 8, characterised in that said plate comprises some holes, preferably provided on the edge, to promote condensation of vapour.
 13. Lid according to claim 1, characterised in that said support means of said cooling means are adjustable.
 14. Lid according to claim 1, characterised in that said support means of said cooling means comprise a screw.
 15. Lid according to claim 1, characterised in that said lid comprises a knob, on the top of said support means for said cooling means.
 16. Lid according to claim 15, characterised in that said cooling means is housed in the lower part of said knob.
 17. (canceled) 